Method and system for physical asset tracking

ABSTRACT

A method for tracking physical assets can include: receiving a digital asset; determining an asset identifier for the digital asset; generating an asset barcode; optionally facilitating printing and sending of the asset to an asset recipient; determining an asset event for the asset; and notifying a sender of an asset event.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application claims the benefit of U.S. Provisional Application No.62/950,388 filed 19 Dec. 2019, which is incorporated in its entirety bythis reference.

TECHNICAL FIELD

This invention relates generally to the delivery services field, andmore specifically to a new and useful method for physical assettracking.

BRIEF DESCRIPTION OF THE FIGURES

FIG. 1 is a schematic representation of the method.

FIG. 2 is a schematic representation of the system.

FIG. 3 is an embodiment of the method.

FIGS. 4A-4B depict variants of a barcode.

FIG. 5 is an embodiment of the method.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

The following description of the preferred embodiments of the inventionis not intended to limit the invention to these preferred embodiments,but rather to enable any person skilled in the art to make and use thisinvention.

1. OVERVIEW

As shown in FIG. 1, the method for tracking physical assets preferablyincludes receiving a digital asset S100, determining an asset identifierfor the digital asset S200, generating an asset barcode S300,determining an asset event for the physical asset S500, and notifying asender of an asset event S600, but the method can additionally oralternatively include facilitating printing and sending of the physicalasset to an asset recipient S400, and/or any other suitable elements.The method preferably functions to determine, track, and provide assetevents for an asset, following the asset from physical creation (e.g.,printing) to recipient delivery. In variants, one or more digitalphysical assets included in an order can be tracked in aggregate.

The system 20 for tracking physical assets can include one or moretracking systems and one or more datastores, but can additionally oralternatively include any other suitable elements. The tracking systemcan include a barcode generation module, a tracking module, and aprocessing module, but can additionally or alternatively include anyother suitable modules. Variants of the system are depicted in FIG. 2.

The asset events are preferably provided to a sender endpoint (e.g., viaan API), such as the asset originator sending the asset or an assetevent subscriber, wherein the sender endpoint can initiate downstreamactions (e.g., communications, discounts, etc.) based on the respectiveasset event. For example, the sender endpoint can trigger out-of-bandcommunication(s) to the intended recipient in response to receipt of theasset event. Examples of out-of-band communications that can betriggered include: phone calls, emails, advertisements, pushnotifications, and/or any other suitable communication, such as toreinforce an advertising campaign illustrated by the printed asset. In afirst specific example, an advertisement can be shown to an intendedrecipient (e.g., on a social network, on a third-party application,etc.) in response to receipt of a “picked-up” asset event (e.g., mailedevent) from the system. In a second specific example, an email can besent to the intended recipient in response to receipt of a “delivered”asset event from the system. In a third specific example, recipientmetrics, such as a recipient response time, can be determined based onthe asset events (e.g., based on how quickly an mail insert's identifieris detected in the mail stream from the delivery partner(s)). However,the asset events generated by the system and method can be otherwiseused.

2. EXAMPLES

In a first example, the method for asset tracking includes receiving adigital version of the asset associated with a sender; determining anasset identifier for the asset; generating an asset barcode based on theasset identifier; transmitting the digital version to a printer, whereinthe printer prints the asset and the asset barcode; determining apicked-up event for the asset, wherein the picked-up event representsasset pick-up from the printer by a delivery service; and notifying thesender of the picked-up event.

In a second example, the system generates the asset barcode for thereceived digital asset. The system interfaces with both a print partner,to print the digital asset and the asset barcode, and a deliveryservice, to deliver the printed asset to the intended recipient (e.g.,customer) based on a recipient address and the asset barcode. The printpartner and the delivery service can be separate and distinct from thesystem. In this example, the unused bits of a conventional asset barcodeare replaced by this system with predetermined bits that enableindividualized asset tracking (e.g., asset identifier, senderidentifier, system identifier, etc.).

As shown in FIG. 3, in a third example, a digital asset can be receivedfrom the datastore (e.g., an order queue), an asset sender, and/or beotherwise received at the system. An asset identifier can be determinedfor the digital asset and used in S300, by the barcode generationmodule, and used to generate a barcode for the digital asset. Thebarcode can include routing information, ZIP code, the asset identifier,the system identifier, and/or any other suitable information. The assetbarcode, asset identifier, digital asset, and/or any other suitableinformation can be stored in the datastore and/or transmitted to theprint partner (e.g., the print partner queue, print partner datastore,print partner API, etc.). The print partner can print the asset and theasset barcode. The asset barcode can be printed directly on the asset,on a surface/sticker (e.g., adhered to the asset, an asset envelope, anasset packaging, etc.), and/or otherwise printed in association with theasset. The asset can be picked up by a delivery service (e.g., the assetpart of a batch of physical assets). The delivery service (and/or printpartner) can transmit an invoice to the tracking system, including abatch identifier, a pick-up timestamp, and/or any other suitableinformation. The delivery service can scan the physical assets and thescan can be associated with a pick-up notification received at thetracking system. The asset can be scanned at a series of deliveryservice facilities, wherein each facility can scan the asset and thescan can be associated with a delivery service facility notification.The asset can be picked up for delivery from a facility and scanned(e.g., when the asset is out for delivery, delivered, etc.). The scancan be associated with an out for delivery notification received by thetracking system. Throughout this printing and delivery process, thetracking system can infer asset events (e.g., from invoice receipt, fromthe invoice information, etc.) or translate (all or a subset of) thescan codes to asset events. The asset sender can subscribe tosubscription parameters associated with the asset events, such that whena notification is processed by the tracking system, the asset senderwill receive a notification of events associated with the subscriptionparameters.

3. BENEFITS

The method confers several benefits over conventional systems.

First, unlike conventional systems that track physical assets for assetrecipients, the system and method can track individualized physicalassets (e.g., commercial physical assets, bulk physical assets,advertising mail, etc.) associated with asset events (e.g., printedevent, such as printed by a print partner; picked-up event; out fordelivery event; return to sender event; etc.) for a sender. Trackingindividualized physical assets is enabled by the tracking system, whichgenerates unique asset barcodes for individual physical assets thatinclude more information than conventional barcodes. Specifically,unused bits in a conventional barcode are replaced by the method andsystem with identification information unique to each asset. The uniqueasset barcode can be scanned, and the scan can be associated withnotifications transmitted to the tracking system from the deliveryservice. The tracking system can determine asset events based on theunique identifiers encoded in the barcode and store the asset events inassociation with the asset identifier in the datastore. The sender cansubscribe to events using subscription parameters received at thetracking system. When the tracking system determines asset eventsassociated with the respective subscription parameters, the trackingsystem can notify the sender of the event.

Second, there does not exist a method for determining a timestamp forevery asset event of interest for each asset (e.g., piece of mail),because some asset events of interest are associated with bulk assetmanipulation (e.g., no “pick-up” event is generated for bulk assetpick-up, because delivery services pick up physical mail in batches).The inventors have discovered that they can associate the batchinformation (e.g., on the invoice, such as a batch identifier) with theinvoice timestamp (e.g., pick-up timestamp) to determine a picked-upevent (pick-up event) for each asset of a batch. The timestamp andassociated asset event can be stored in association with the respectiveasset identifier in the datastore.

For example, senders oftentimes want to know when each piece of mailinitially enters the mail stream (e.g., when it is picked up by adelivery person for transport to the delivery service facility, such asa sorting facility). Unfortunately, the earliest notification thatdelivery partners can provide on a per-mail-piece basis is arrival atthe first automated delivery service facility, since it is manuallyinfeasible for a delivery service worker to scan each and every piece ofmail into the system at pick-up. This system automatically determinesthe picked-up event (e.g., asset pick-up event, mailed event).

However, the method and system can confer any other suitable benefits.

4. SYSTEM

The method is preferably performed using the system 20 (example shown inFIG. 2), and can be used with: a system identifier, an asset, one ormore third-party services, and/or any other suitable elements. Thesystem can include: one or more routing systems, one or more trackingsystems, one or more processing systems, one or more datastores, and/orany other suitable elements, such as to track digital physical assetsusing the system.

The system 20 can be used with a system identifier, which can functionto uniquely identify the system. The system identifier can be used togenerate the asset barcode, used to enable asset tracking, and/or beotherwise used. The system identifier is preferably the same for allmail pieces processed by the system (e.g., routed by the system), butcan alternatively be different for different mail pieces, differentsenders, and/or otherwise vary.

The system 20 preferably includes an asset. The asset is preferablytracked by the routing system. The asset can be a digital asset, aprinted asset (e.g., the digital asset printed by a print partner),and/or any other suitable asset. The asset is preferably a mail piece(e.g., a letter, a postcard, a mailer, etc.), but can alternatively be apackage or other asset.

The asset can be associated with a batch. A batch is preferably a groupof assets, different from an order, that can be transferred from a printpartner to a delivery service. A batch can include physical assets froma plurality of orders, physical assets from a single order, and/or anyother suitable digital physical assets. Each print partner can print oneor more batches (e.g., concurrently or serially). A batch can beassociated with a minimum volume (e.g., determined by a deliveryservice, determined by the print partner, and/or otherwise determined).The minimum volume can be of: individual physical assets, individualdigital asset proofs (e.g., a unique asset design), and/or any othersuitable asset unit. A batch can be associated with a timeframe (e.g.,single business day, span multiple days, etc.).

Asset association with a batch can be determined by the routing systembased on batch requirements associated with a batch, or otherwisedetermined. Batch requirements can include acceptable parameter valuesfor a given batch (e.g., acceptable parameter values that can be printedtogether on the print partner machinery). The batch requirementspreferably specify values for a subset of the asset parameters, suchthat a batch can include digital assets with different permutationparameter values, but can additionally or alternatively specify valuesfor the full set of asset parameters. Batch requirements can be storedin the datastore, more specifically the module datastore, and/orotherwise stored. Batch requirements can be specified by each printpartner's machinery capabilities, machine setup, manually (e.g.,specified by a print partner, by a system administrator, etc.),automatically determined (e.g., specified by machine; determined basedon: the type of machines associated with the print partner, themachines' possible configurations, the batch parameters associated witheach configuration, the machine setup required to print the digitalphysical assets in an existing batch, etc.), and/or otherwisedetermined. Batch requirements can be received through a graphical userinterface (GUI), a machine interface, or any other suitable interface.The GUI is preferably configured to collect batch requirements for therouting system (e.g., information regarding print partners, regardingmodules of the routing system, etc.). The batch requirements can bereceived: over a wired or wireless connection (e.g., the Internet), aCAN or field bus, and/or any other suitable connection. However, a batchcan include any other suitable elements.

The asset can be associated with an order. Each order preferablyincludes one or more digital versions of physical assets, an associatedorder volume (e.g., number of digital versions), one or more timestamps(e.g., time at which the order was received, maximum time allocation fortime of order receipt to print, etc.), but can additionally oralternatively include any other suitable information. Assets of an ordercan be routed to different print partners by the routing system. Assetsof an order can be associated with different picked-up events (e.g.,enter the mail stream at different times) or they can be associated withthe same picked-up event. However, an order can include any othersuitable elements.

Each asset can be associated with an asset identifier. The assetidentifier can be unique to the asset (e.g., globally unique, temporallyunique, unique within the batch, unique within the system, etc.), ornon-unique (e.g., shared with other physical assets, such as physicalassets generated from the same asset originator order). The assetidentifier can be re-used after the asset is delivered (or after anotherasset event has occurred, after a predetermined amount of time), and/ornot be re-used. The asset identifier can optionally identify the system20, such that the delivery service can forward asset data (e.g., scanevents, scan codes, etc.) to the system 20. Alternatively, the assetidentifier can exclude a system identifier, wherein the system can pullasset data from the delivery service based on the asset identifiersstored by the system 20. However, the asset identifier can be associatedwith any other suitable characteristic.

The asset can be associated with an asset barcode, other visualidentifier (e.g., QR code, etc.), wireless identifier (e.g., NFC tag,Bluetooth tag, etc.), or other identification mechanism. The assetbarcode (and/or identification mechanism) can include (e.g., encode) theasset identifier. The asset barcode can include a ZIP code (e.g., assetorigination ZIP code, asset receipt ZIP code, and/or any other suitableZIP code). The asset barcode can include routing information (e.g., apath of particular delivery service facilities to be delivered at arecipient address). In variants, the routing information can beassociated with a set of expected asset events, and optionally, a set oftime windows for each of the expected asset events. The barcode canadditionally or alternatively include any other suitable information.The asset barcode can be generated by the barcode generation module ofthe tracking system, but can additionally or alternatively be generatedby the delivery service, the print partner, and/or be otherwisegenerated. The asset barcode is preferably scannable by a deliveryservice. However, the asset barcode can be associated with any othersuitable elements.

The asset can be associated with asset information. Examples of assetinformation that the asset can be associated with include: assetbarcode; asset identifier; batch identifier; order identifier; senderidentifier; asset events, such as codes and/or standardized asset eventlabels; timestamps; intended recipient information; and/or any othersuitable information.

However, the asset can additionally or alternatively be associated withany other suitable information or data.

The system 20 preferably includes one or more third-party services,which can include one or more printers (e.g., print partners), deliveryservices (e.g., delivery service facilities), and/or any other suitableservice. The third-party services can include a set of print partners.The print partners can print digital physical assets and respectiveasset barcodes (e.g., on the asset packaging, on the asset itself,etc.). A print partner can receive the asset from the system 20 afterthe system 20 assigns the asset to the print partner. Each print partnercan include one or more servers that can store physical assets assignedto the print partner. The print partners can transmit notifications(e.g., string, csv, values, data streams, etc.) to the tracking system.The notifications can include information relevant to the state of theasset in the print partner queue, an expected print timestamp, anexpected pick-up time, and/or any other suitable information.

The third-party services can include a set of delivery services. Thedelivery services can receive batched assets (e.g., a plurality ofphysical assets) from each print partner. The batched assets can beassociated with a threshold minimum volume, maximum volume, and/or notbe associated with a threshold volume. The physical assets of the batchcan be associated with a batch identifier for the assigned batch.

Each delivery service can determine an invoice for a particular assetbatch. The invoice is preferably generated (and received by the system)after asset batch pick-up from the print partner, but can be generatedor received at a predetermined time after asset batch pick-up, after apredetermined event (e.g., after asset delivery), or at any othersuitable time. An invoice can include the batch parameters, such as thevolume of the batch; batch identifier; asset identifiers, such asassociated with the printed physical assets of the batch; pick-uptimestamp; print partner that printed the batch; pickup geolocation;and/or any other suitable information.

Each delivery service can scan an asset (e.g., the asset barcode, assetidentifier) one or more times (e.g., 2 times, 3 times, 5 times, 10times, 15 times, etc.). After a delivery service scans an asset, anotification (e.g., string, csv, etc.) associated with the asset can bereceived at the system 20 in real-time, within a predetermined timewindow, or at any other suitable time (e.g., using a push notification,pull request, or other request). A scanned event can be determined bythe system based on the notification. An asset can be scanned when: theasset is picked up by the delivery service from the print partner; whenthe asset is out for delivery; when the asset is en route to or receivedat a delivery service facility; and/or at any other suitable time. Anasset can be scanned by a machine located at a delivery servicefacility, by a machine operated by an asset delivery person, and/or byany other suitable system.

Each delivery service can be associated with a delivery service API. Adelivery service API can interface with the system (e.g., using deliveryservice authentication or authorization credentials stored by thesystem, using system authentication or authorization credentials storedby the delivery service, etc.). The delivery service API can sendinformation to the system (e.g., an invoice, a notification associatedwith an asset, etc.). The delivery service can additionally oralternatively receive information from the system. The delivery serviceAPI can additionally or alternatively otherwise interface with thesystem and/or directly interface with a sender API or GUI. Theinformation can be: pushed from the delivery service, pulled from thedelivery service (e.g., returned in response to a request sent by thesystem), or otherwise provided to the system.

The system can interact with or include one or more senders, whichfunction to determine digital assets (e.g., originate, forward to thesystem, etc.) and/or receive tracking information for physical assets.Senders can include people, asset generation services, a sender API,and/or any other suitable sender. Senders can receive asset eventinformation associated with subscription parameters. Subscriptionparameters can include: a sender identifier, batch identifier, eventidentifier (e.g., associated with a tracking code), order identifier,asset identifier, time period, and/or any other suitable parameters.Senders can subscribe to one or more asset events using webhooks, usingan automated query, a sender generated query, authentication and/orauthorization credentials, and/or otherwise subscribe to asset eventinformation.

A webhook can push information to the sender after detecting an eventassociated with the subscription parameters. The webhook canadditionally or alternatively pull information from the datastore basedon subscription parameters.

The automated query can query the datastore on a predetermined interval(e.g., ½ day, 1 day, 2 days, 5 days, etc.), in response to occurrence ofa query event (e.g., a request from a sender system), and/or at anyother suitable time. The automated query can include predeterminedsubscription parameters for the sender (e.g., associated with thequery). However, the automated query can include any other suitableelements.

However, senders can be otherwise defined.

The system can interact with or include one or more recipients, whichfunction to receive the asset. A recipient is preferably associated witha recipient address, which is associated with the asset (e.g., theaddress which the asset is mailed to). However, recipients can beotherwise defined.

However, third-party services can additionally or alternatively includeany other suitable entity.

The system 20 preferably includes one or more routing systems. Therouting system preferably functions to determine a batch, associatedwith a print partner, for a digital asset. The print partner can beassociated with multiple batches or a single batch. The routing systemcan determine batches for multiple physical assets in parallel or inseries. Physical assets of the same order can be routed to differentbatches of the same print partner and/or different print partners (e.g.,thereby causing physical assets of the order to enter the mail stream atdifferent times). However, the routing system can otherwise routeindividual physical assets from the (same or different) assetoriginators to the (same or different) print partners for physical assetcreation. An example of the routing system is described in USApplication No. xx/xxx,xxx filed 18 Dec. 2020 and titled METHOD ANDSYSTEM FOR AGGREGATE ASSET ROUTING, which is incorporated herein in itsentirety by this reference.

The system 20 preferably includes a tracking system. The tracking systempreferably functions to process information from a delivery serviceusing the processing module; track asset events for physical assetsusing the tracking module; and generate asset barcodes using the barcodegeneration module, but can additionally or alternatively perform anyother suitable set of functionalities.

The tracking system preferably includes a set of modules. The set ofmodules can include a tracking module. The tracking module preferablyfunctions to perform S500 and S600. Additionally or alternatively, thetracking module can subscribe to a feed (e.g., stream of events) fromthe database.

The tracking module can query/search the database using an API. Thequery can include using a search engine. The query can include a set ofparameters. The set of parameters can include the asset identifier ofthe asset, a timestamp (e.g., of the most recent previous eventassociated with the asset identifier, of the picked-up event, and/or anyother suitable timestamp), an event identifier, and/or any othersuitable parameter.

The set of modules can include a processing module. The processingmodule preferably functions to process the notification(s) comprising abatch of scanned events, such as received from a plurality of deliveryservices and/or delivery service facilities. The notifications caninclude information such as the asset identifier, ZIP code, eventidentifier, and/or any other suitable information. The processing modulecan optionally infer events from auxiliary data. The processing modulecan additionally or alternatively perform any other suitable set offunctionalities.

The set of modules can include a barcode generation module whichfunctions to generate a barcode for the digital asset based on the assetidentifier, routing information, and/or any other suitable information.The barcode generation module can additionally or alternatively performany other suitable set of functionalities.

The set of modules can include an event validation module. The eventvalidation module preferably functions to confirm that asset eventsassociated with asset identifiers occurred as expected for the physicalphysical assets (e.g., picked-up event, location events, received byrecipient event, etc.); functions to determine when an asset is notassociated with an expected event for the physical asset (e.g., returnto sender, no event data for the asset for a predetermined period,etc.); functions to evaluate the output of the event estimation module(e.g., provide an error metric); and/or functions to determine data,such as training data, validation data, and/or test data. The data canbe labelled (e.g., with the asset state, with binary i/o to indicatethat the asset event occurred, such as the asset was deliveredto/received by the intended recipient, etc.) and/or unlabeled. The datacan be used by the event estimation module and/or any other suitablemodule or system. The event validation module can additionally oralternatively perform any other suitable functionalities and/or includeany other suitable elements.

The set of modules can optionally include an event estimation module.The event estimation module preferably functions to estimate an assetstate (e.g., as the asset is routed to the recipient). The eventestimation module can estimate the asset state and/or asset eventoccurrence based on: prior mail history for the asset, historical trendsfor the same route or same asset event, heuristics, a rule set, and/orany other suitable data. The event estimation module can include alearning module. The learning module can process the data received fromthe event validation module. The learning module can be a stochasticmodel, a neural network, and/or any other suitable state estimationnetwork and/or model. The event estimation module can additionally oralternatively perform any other suitable functionalities and/or includeany other suitable elements.

However, the set of modules can additionally or alternatively includeany other suitable module.

The tracking system can interface with an events API. The events API canbe associated with the datastore. The events API can receive information(e.g., asset events, physical assets, etc.) from the datastore. Theevents API can receive and respond to queries (e.g. from senderendpoints). The events API can generate event streams (e.g., on a perorder ID basis, per asset ID basis, etc.), wherein the tracking systemcan subscribe to the event streams. The events API can additionally oralternatively perform any other suitable functionalities and/or includeany other suitable elements.

The tracking system can transmit asset events to a dashboard; a senderAPI; directly to a sender via a push notification, a phone call, anemail; and/or otherwise transmit asset events to a sender.

However, the tracking system can be otherwise configured.

The system 20 preferably includes one or more processing systems, whichcan function to execute the one or more modules of the system. Theprocessing system can be localized or distributed. The processing systemcan include one or more processors (e.g., PCB, CPU, GPU, etc.). Theprocessing system can include one or more pieces of computer memory(e.g., non-volatile memory, such as RAM or Flash; volatile memory;etc.). However, the processing system can be otherwise configured.

The system 20 can include one or more datastores. The datastore can be arelational database (RDS) (e.g., schema based), such as for storingasset events, but can additionally or alternatively be a NoSQL database,such as for storing analytics, webhooks and/or any other suitableinformation, and/or any other suitable database. The datastore can havea configuration, such as distributed and/or centralized, but canadditionally or alternatively have any other suitable configuration.

The datastore preferably stores the asset. The asset is preferablyaccessible in the datastore based on the asset identifier of the asset.The asset is preferably stored with additional information. Theadditional information can include the asset barcode, asset parameters,auxiliary data, and/or any other suitable information. However, theasset need not be stored with additional information (e.g., when theasset is enqueued in an order queue of the datastore).

The datastore can additionally store asset events and associated eventidentifiers; processed and/or unprocessed delivery servicenotifications; an order queue (from which to receive orders in S200);and/or any other suitable information.

The system can include multiple datastores for storing different typesof information, such as for storing tracking information, analytics, andwebhooks, but can alternatively include a single datastore for storingthe information.

The datastore can be associated with search clusters (e.g.,Elasticsearch clusters).

However, the datastore can include any other suitable elements.

5. METHOD

The method for tracking physical assets can include: receiving a digitalasset S100; determining an asset identifier for the digital asset S200;generating an asset barcode S300; optionally facilitating printing andsending of the asset to an asset recipient S400; determining an assetevent for the asset S500; notifying a sender of an asset event S600;and/or any other suitable elements.

5.1 Receiving a Digital Asset S100.

Receiving a digital asset S100 can function to obtain a digital versionof the mail to be printed and delivered. The digital asset is preferablyreceived by the system 20, and more preferably by the routing system orbarcode generation module, but can additionally or alternatively bereceived by the datastore (e.g., in the order queue). The order queuecan dequeue digital physical assets of orders to be received duringS100. The digital asset can be received from the sender and/or an assetsender system (e.g., via an API of the system), the routing system,and/or from any other suitable entity or system. S100 can be performedconcurrently with S200, before S200, after S200, and/or at any othersuitable time. The digital asset can be programmatically generated fromhtml (e.g., with different variables specifying different visualparameters or values to insert into an asset proof template), receivedas a JSON object, and/or be otherwise determined. The digital asset ispreferably associated with recipient information, such as the recipientaddress, a recipient identifier (e.g., that uniquely identifies therecipient at the sender endpoint), and/or any other suitable assetinformation. The digital asset can be associated with a sender endpoint,such as the asset originator, a subscriber, or any other suitableendpoint using a sender identifier. S100 can include storing the digitalasset in the datastore.

S100 can include receiving multiple digital physical assets from thesame order and/or from different orders. The digital physical assets canbe processed by S100 contemporaneously or in series.

S100 can include receiving an order, which can include a plurality ofdigital physical assets. Each asset can be individually processed by therouting system, such that physical assets of an order can be assigned todifferent batches, printed by different print partners, and picked up bydelivery services at different times (e.g., as depicted in FIG. 5).Alternatively, physical assets of an order can be assigned to the samebatch and printed by the same print partner and/or otherwise distributedby the system.

However, the digital asset can be otherwise received.

5.2 Determining an Asset Identifier for the Digital Asset S200.

Determining an asset identifier for the digital asset S200 can functionto enable individualized asset tracking. The asset identifier ispreferably a unique identifier (e.g., globally, temporally, perthird-party service, such as per print partner, etc.). The assetidentifier can be: determined based on the asset information, the senderinformation, the system identifier, the delivery route, the batchinformation (e.g., batch identifier), order information (e.g., orderidentifier, order timestamp, etc.), and/or other asset data; randomlygenerated; and/or otherwise determined. The asset identifier can bereceived from the routing system, generated by the tracking system,and/or otherwise determined. The asset identifier can be stored in thedatastore, such as to uniquely identify the digital asset. The assetidentifier can be stored in association with the digital asset, thesender identifier, the asset parameters, the print partner, the deliverypartner, the asset events, and/or any other suitable information. Theasset identifier is preferably used as a unique key to store assetinformation in the datastore and/or query the datastore for assetinformation. The asset identifier can be associated with a batch and/ora print partner by the routing system and/or by any other suitablesystem. However, the asset identifier can be otherwise determined,stored, and/or used.

In a first variation, the asset identifier can be generated from theasset parameters. For example, the asset identifier can be a hash of theasset's parameter values, the sender identifier, and/or otherinformation.

In a second variation, the asset identifier is determined based on thesender. For example, the asset identifier can include: a senderidentifier, an incremental identifier (e.g., unique for the senderidentifier), and/or other information.

In a third variation, the asset identifier is determined based on aglobally incremented identifier (e.g., wherein each mail piece isassigned the next identifier).

However, the asset identifier can be otherwise determined.

5.3 Generating an Asset Barcode for the Asset S300.

Generating an asset barcode for the asset S300 can function to generatean asset barcode for which to track the asset as the asset is routed tothe intended recipient (e.g., scanned by the delivery service at variouscheckpoints including delivery service facilities, delivery servicepick-up from a printer, delivery, etc.). The asset barcode preferablyfunctions to associate a physical asset with the digital asset, morespecifically the asset identifier, and additionally or alternatively asystem identifier, an order identifier, a batch identifier, and/or anyother suitable identifier(s). The asset barcode can be an IMB, IMPB,EAN-128, Code 128, GS1-128, RM4SCC, MaxiCode, EAN-8, EAN-13, EAN-14,UPC-A, JAN, ISBN-10, ISBN-13, ISSN, Code 39, PZN, and/or any othersuitable barcode.

S300 is preferably performed by the barcode generation module, but canadditionally or alternatively be performed by the delivery service, theprint partner, and/or be otherwise performed.

S300 is preferably performed after determining the asset identifier inS200, but can additionally or alternatively be performedcontemporaneously with S200, and/or at any other suitable time.

S300 can receive the asset identifier from S200. S300 can receive theZIP code, routing information, and/or any other information associatedwith the asset from S100 (e.g., in addition to receiving the asset).S300 can additionally or alternatively receive any other suitableinformation.

In a first variant, the asset barcode can include system information,asset information, and delivery service information. Examples of theasset barcode are depicted in FIGS. 4A and 4B.

As depicted in FIG. 4A, the asset barcode can include the systemidentifier, the asset identifier, a sender identifier, the ZIP code, androuting information. The system identifier can be appended to the assetidentifier, part of the asset identifier, separate from the assetidentifier, and/or be otherwise related to the asset identifier. Thesender identifier can be appended to the asset identifier, part of theasset identifier, separate from the asset identifier, and/or beotherwise related to the asset identifier.

As depicted in FIG. 4B, the asset barcode can include an assetidentifier, a system identifier, and routing information, and/or anyother suitable information

In a second variant, the asset can include multiple barcodes, which caninclude a delivery service barcode, a sender barcode, and/or any othersuitable barcode. The multiple barcodes can be scannable by the deliveryservice, the recipient, such as by a device, and/or be otherwisescannable. For example, the sender barcode can be scanned by therecipient (e.g., to determine a delivered event, confirm a deliveredevent, etc.).

However, the asset barcode can be otherwise generated.

5.4 Facilitating Printing and Sending of the Asset to an Asset RecipientS400.

Facilitating printing and sending of the asset to an asset recipientS400 can function to print, deliver, and/or assist in delivery of theasset to a recipient. S400 is preferably performed after S300, and/or atany other suitable time. S400 can include: sending a digital version ofthe asset to a selected print partner (e.g., determined by the routingsystem), wherein the print partner prints and sends physical versions ofthe asset to the delivery service. The asset can be printed as a batch,delivered as a batch to the delivery service, and/or otherwiseassociated with other physical assets. The asset barcodes are preferablyprinted on the respective assets by the print partner, but canalternatively be otherwise associated with the respective asset. Thedigital version of the asset can be printed with the generated assetbarcode. When the digital asset is picked up and/or handled by thedelivery service, the asset barcode of the digital asset can be scanned(e.g., representative of a picked-up event), which can trigger anotification transmission to the system 20 (e.g., as shown in FIG. 3).

In one such variant of sending the asset to the print partner, after adigital asset is associated with a print partner and an asset barcode(e.g., the asset barcode determined in parallel, determined in series,etc.), the asset can be enqueued at the respective print partner queue.

However, the asset can be otherwise printed and sent to an intendedrecipient.

5.5 Determining an Asset Event for an Asset S500.

Determining an asset event for an asset S500 can function to digitallytrack a physical asset as the asset is routed to an intended recipient.S500 can additionally or alternatively perform any other suitablefunctionalities.

S500 is preferably performed by the tracking system, and morepreferably, by the tracking module, but can additionally oralternatively be performed by any other suitable system.

S500 can be performed for a plurality of physical assetscontemporaneously or in series.

S500 is preferably performed after S300, but can additionally oralternatively be performed contemporaneously with S300. S500 ispreferably performed contemporaneously with S400, but can additionallyor alternatively be performed after S400. S500 is preferably performedafter an asset is printed by the print partner, but can additionally oralternatively be performed before the asset is printed by the printpartner (e.g., process-to-be-printed event). S500 can be performed onceper asset, such as corresponding to a single event (e.g., picked-upevent, out for delivery event, received event, etc.), performed aplurality of times per asset (e.g., 2, 3, 5, . . . , N) depending on thenumber of events for the particular asset, or performed any othersuitable number of times. S500 can be performed after a scannotification is received from the delivery service. However, S500 canadditionally or alternatively be performed at any other suitable time.

S500 is preferably performed based on: the asset (e.g., the physicalasset), asset events (e.g., asset event identifiers/codes), asset eventdescriptions, and/or subscription parameters (e.g., determined in S600),but can additionally or alternatively be otherwise based.

S500 preferably includes receiving notifications from the deliveryservice and/or print partner. Processing the notifications can include,at the processing module of the tracking system, processing thenotification data into a new data format. In one such example,processing the notification can include processing the notification intoan object (e.g., software object) such as a JSON object, YAML object,and/or any other suitable object. The notification data is preferablyreceived by an API, but can additionally or alternatively be received bya GUI, and/or by any other suitable interface. The notification data inthe new data format can be stored in the datastore, but additionally oralternatively the notification data can directly stored in thedatastore, and/or not stored in the datastore. In one variant, storingthe set of event identifiers can include filtering out a predeterminedset of codes (e.g., unmapped codes), such that only events associatedwith mapped and/or desired codes are stored in the datastore.Additionally or alternatively, all codes (and/or associated assetevents) can be stored in the datastore.

Asset events are preferably events associated with an asset identifierof the asset. Asset events are preferably human-readable (e.g.,descriptive strings), but can additionally or alternatively bealphanumeric codes or have any other suitable construction. The assetevents are preferably of interest to the sender endpoint, but can be ofinterest to the recipient, and/or any other entity. The asset eventspreferably include a subset of the scan codes provided by the deliveryservice (e.g., associated with the asset identifier or asset barcodescanned by the delivery service), but can additionally or alternativelyinclude all, none, or any other suitable number of the scan codesprovided by the delivery service. The asset events preferably includeevents outside of the scan codes provided by the delivery service (e.g.,picked-up events, delivery events, etc.), wherein the non-scan codeevents can be determined from other sources (e.g., recipient, API, etc.)or estimated (e.g., based on scan code events, historical data, etc.),but can additionally or alternatively be limited to the scan codes.

Asset events can include: picked-up events, in-transit events,in-local-area events, processed-for-delivery-events, re-routed events,returned-to-sender events, print events, received-by-recipient events,and/or any other suitable event.

A picked-up event for an asset is preferably when an asset enters themail stream (e.g., the asset is picked up for delivery by a deliveryservice, after being printed by a print partner). The picked-up eventcan be determined from an invoice received from a delivery service(e.g., matching the batch identifier on the invoice with a batchidentifier associated with assets routed by the system and using theinvoice timestamp as the pick-up timestamp associated with a picked-upevent). Additionally or alternatively, the picked-up event can beinferred based on occurrence of another event associated with the asset(e.g., an in-transit event; in-local area event; or other eventassociated with scanning the barcode of the asset, such as at a deliveryservice facility, during pick-up at a print partner, etc.; etc.) Apicked-up event can provide auditable proof of time of mailing and/orany other information.

In-transit events can be when the asset is being processed at the originfacility (e.g., scanned at the origin facility), but can optionallyinclude any other location events (e.g., when the physical asset isscanned at any other intermediary delivery service facility), or anyother suitable event.

In-local-area events can be when asset is being processed at adestination facility (e.g., within a predetermined distance from therecipient address, such as within 30 miles, 50 miles, 70 miles, 100miles, etc.).

Processed-for-delivery events can be when the asset is ready fordelivery at a nearest postal facility to the recipient address and/or apostal facility within a predetermined distance to the recipient address(e.g., 10 miles, 20 miles, 30 miles, 40 miles, 50 miles, etc.).

Re-routed events can be when the asset is being re-routed due torecipient change of address, address errors, re-determining the barcode(e.g., by the delivery service), and/or otherwise re-routed.

Returned-to-sender events can be when the asset is being returned tosender due to an error (e.g., address error, barcode error, identifiererror, etc.). A returned-to-sender event can be determined based on acode received from a print partner, inferred based on a series of events(e.g., processed-for delivery event followed by an additionalin-local-area event, in-transit event, re-routed event, any other eventassociated with a delivery service facility, etc.), reported by thesender, and/or otherwise determined.

Print events can be when the asset has been printed by the printpartner, but before the asset has entered the mail stream (e.g., pickedup by the delivery service).

Received-by-recipient events can be indicative of when the mail piece isreceived by a recipient. Received-by-recipient events can be inferredbased on past events associated with the mail piece. For example,received-by-recipient event can be inferred based on a predeterminedperiod after a processed-for-delivery event (e.g., 1 hour, 2 hours, 3hours, 4 hours, 5 hours, 8 hours, 12 hours, 24 hours, etc.).Alternatively, received-by-recipient events can be determined from ascan code, from a geolocation of the delivery system (e.g., when thedelivery system geolocation is substantially collocated with the asset'srecipient address), or otherwise determined.

Asset events can additionally or alternatively include any othersuitable events associated with the asset.

In a first variant, S500 includes determining an asset event from datareceived from the delivery service. In this variant, informationreceived from a delivery service can include a CSV; string; object, suchas a JSON object, YAML object, and/or any other suitable object; and/orany other suitable data format. The information can include fields suchas asset identifier, event identifier (e.g., associated and/or mappedwith a human readable event), ZIP code, timestamp (e.g., time of scan),and/or any other suitable field. The information can include auxiliaryinformation (e.g., extracted from an invoice, a notification, etc.).Information can be extracted from the invoice by: extracting values fromthe fields of a digital invoice, extracting metadata values, extractingdata from an OCR'ed invoice, or otherwise extracted. The information caninclude an API subscription stream/webhook. However, S500 can receiveany other suitable information. The information, received by S500 (or asubset thereof), can be converted into human readable informationassociated with the asset event for the asset using anidentifier-to-event map, trained algorithm, or other conversion module.The human readable information can be used in S600, and/or be otherwiseused.

In a first embodiment, the system can receive a delivery service code,interpret one or more delivery service codes into a symbolicrepresentation (e.g., human-readable), and store and/or notify thesender, using symbolic representation. The symbolic representation canbe determined using a database, library, translator, and/or otherwisedetermined.

S500 can include determining an asset event for an asset identifierbased on the notifications, wherein the respective asset identifier ismarked with a picked-up event, with the pick-up timestamp, and/or withany other suitable information extracted or inferred from thenotification. In a first variant, determining an asset event can includedetermining a set of event identifiers, each identifier associated witha different asset event, for the asset identifier. Determining a set ofevent identifiers can be based on a predetermined identifier-to-eventmap, or otherwise determined.

In a second variant, determining an asset event can include determiningasset events from auxiliary data associated with the asset event. In oneembodiment, the asset event can be a picked-up event. In a firstexample, determining a picked-up event can include receiving an invoicefrom a delivery service. The invoice can be for a batch of physicalassets picked up by a delivery service from a print partner. The invoicecan include a pick-up timestamp, the batch parameters, and/or any othersuitable information. Determining a picked-up event can additionallyinclude: determining the batch associated with the invoice (e.g., basedon a batch identifier provided by the system to the print partner and/ordelivery service and extracted from the invoice; the print partner forthe batch; the invoice timestamp and estimated batch ship time; etc.);determining the asset identifiers associated with the batch; and markingthe respective asset identifiers in the datastore with a picked-upevent, with the pick-up timestamp, and/or with any other suitableinformation extracted or inferred from the invoice. In a second example,determining a picked-up event can include receiving a notification forthe batch from the delivery service or print partner, which indicatesthat the batch is received at the delivery service. The notification caninclude a timestamp corresponding to the pick-up time, but thenotification need not include a timestamp, in which case the timestampof the notification can be used. Determining the picked-up event canadditionally or alternatively include marking the asset identifier inthe datastore with a picked-up event, with the pick-up timestamp, and/orwith any other suitable information extracted or inferred from thenotification. In a third example, determining the picked-up event caninclude receiving a notification for the asset identifier from thedelivery service. In a fourth example, determining the picked-up eventcan include receiving a shipped notification from the print partner at afirst timestamp, optionally confirming the shipped notification inresponse to receipt of an invoice from the delivery service, andupdating the asset identifier with a picked-up event and the firsttimestamp.

In a third variant, determining an asset event can include inferring anasset event from the current or historical data associated with theasset identifier (e.g., predetermined period of time after a previousfirst known asset event, the predetermined period associated with aprobability that a second known asset event has occurred, etc.). In afirst example, after a predetermined period (e.g., ½ day, 1 day, 2 days,etc.) of an out for delivery event, there can be a predeterminedprobability of a received event (e.g., 0.5, 0.75, 0.95, etc.) respectiveto the predetermined period, wherein the asset identifier is updatedwith the received event after the probability exceeds a predeterminedthreshold (e.g., above 0.5, above 0.6, above 0.7, above 0.8, above 0.9,etc.). In a second example, auxiliary data can include an invoicereceipt associated with asset pick-up. The system 20 can automaticallygenerate a picked-up event based on the invoice receipt. In a thirdexample, auxiliary data can include asset delivery data, such as athreshold timeframe, which defines a timeframe for expected assetdelivery. The system 20 can automatically generate an asset deliveryevent based on the asset delivery data. However, S500 can additionallyor alternatively otherwise infer asset events from auxiliary data.

S500 can optionally include storing the asset event in association withthe asset identifier in the datastore, but can additionally oralternatively include storing the asset event in association with anyother suitable subscription parameter.

S500 can include filtering out notifications that include unmapped scancodes; converting scan codes to standardized asset event labels (e.g.,human-readable labels); and/or include any other suitable process or notprocess the notifications (e.g., directly store the notifications in thedatastore).

In a fourth variant, an asset event can be inferred from asset eventsfrom other physical assets in the same batch. For example, when an assetevent has been received for more than a threshold proportion of assetswithin a batch, the asset event can be propagated to the other assetidentifiers within the batch (e.g., wherein the asset event can beassociated with batch-level processing by the delivery service).

However, an asset event can be otherwise determined.

The method can optionally include performing analytics based on one ormore tracked events (e.g., delivery speed, asset distribution, etc.).The analytics can be determined based on the one or more tracked events,historical tracked events, and/or any other suitable data. The analyticscan be performed by the event estimation module and/or any othersuitable module.

In a first embodiment, a delivery speed for an asset can be calculatedbased on a first timestamp associated with a picked-up event and asecond timestamp associated with a processed-for-delivery event, basedon delivery speeds for previous physical assets delivered to the samezip code (e.g., historical asset data), and/or based on any othersuitable information. Additionally or alternatively, the delivery speedfor multiple different physical assets can be averaged to determine adelivery speed per zip code, per region, per delivery service, and/orper any other element.

In a second embodiment, a delivery speed can be estimated based onhistorical speeds between facilities, average time to print, averagetime between a final facility and a recipient address, and/or any othertime period.

In a third embodiment, an asset distribution can be a geographic paththat an asset takes from a printer to a recipient address, which can bedetermined based on asset barcode scans at delivery service facilities.

5.6 Notifying a Sender Regarding an Asset Event Associated with theAsset S600.

Notifying a sender regarding an asset event associated with the assetS600 can function to enable asset tracking (e.g., asynchronouscommunication with a sender regarding asset events). S600 is preferablyperformed by the tracking system, but can be performed by any othersuitable system. The tracking system can additionally analyze events forall physical assets (or a subset thereof) associated with the sender,and/or an order received from the sender, and transmit the analysis tothe sender. S600 can additionally or alternatively be performed by anyother suitable system.

S600 can be performed after detecting an asset event by the trackingsystem in S500 and/or after a predetermined period, such as aftermultiple events (e.g., ½ day, 1 day, 2 days, etc.). Additionally oralternatively, S600 can be performed after a sender pulls and/or queriesan event status associated with a search parameter from the trackingsystem. S600 can additionally or alternatively be performed at any othersuitable time.

S600 can be performed based on notification preferences (e.g., usingwebhooks) specified by the sender, performed for all events associatedwith assets associated with the sender, and/or otherwise performed. Asender can subscribe to a particular asset event through a webhookassociated with the asset event. In a first example, the sender can benotified of an asset event after the sender subscribes through a webhookassociated with the asset event.

S600 can include notifying a sender of multiple asset events associatedwith an asset. S600 can include notifying a sender of asset eventsassociated with an order (e.g., total delivered physical assets, totalreturned to sender physical assets, etc.). S600 can include notifyingmultiple senders of asset events for their respective physical assetscontemporaneously or in series.

S600 can receive asset events associated with search parameters fromS500. S600 can transmit the asset events to the sender via a pushnotification to a sender device, a request, a phone call, to a dashboardaccessible by the sender, to a sender API, and/or otherwise notify thesender of asset events. The asset events can be sent as a message, anarray, audio, and/or in any other data structure.

S600 can be performed based on an asset event determined in S500, butcan additionally or alternatively be based on a notification receivedfrom the sender (e.g., query for information regarding an asset, anorder, subscription to an event stream for an asset, for an order,etc.), and/or otherwise based. S600 can include monitoring the system 20for asset event occurrence (e.g., for a search parameter).

In a first variant, S600 can include periodically searching thedatastore (e.g., every 1 minute, 10 minutes, day, week, at apredetermined frequency, on a predetermined schedule, etc.).Periodically searching the datastore can include determining an assetevent for an asset identifier (e.g., associated with a sender,associated with an undelivered state, etc.) or any other searchparameter(s).

In a second variant, S600 can include a sender subscribing to an eventstream associated with an identifier (e.g., asset identifier; batchidentifier, wherein the asset identifier is associated with the batchidentifier; order identifier; and/or any other suitable identifier). Thesender can subscribe to an event stream via an interface (e.g., API,GUI, third-party notification service, and/or any other suitableinterface). The sender can receive notifications in response to areceipt of an asset event at the interface.

In a third variant, a most recent asset event can be used to update astatus for an asset (e.g., on a dashboard, push notification, etc.).

However, the sender can be otherwise notified regarding an asset event.

Embodiments of the system and/or method can include every combinationand permutation of the various system components and the various methodprocesses, wherein one or more instances of the method and/or processesdescribed herein can be performed asynchronously (e.g., sequentially),concurrently (e.g., in parallel), or in any other suitable order byand/or using one or more instances of the systems, elements, and/orentities described herein.

As a person skilled in the art will recognize from the previous detaileddescription and from the figures and claims, modifications and changescan be made to the preferred embodiments of the invention withoutdeparting from the scope of this invention defined in the followingclaims.

1. A method for tracking an asset, comprising: receiving a digitalversion of the asset associated with a sender; determining an assetidentifier for the asset; generating an asset barcode based on the assetidentifier; transmitting the digital version to a printer, wherein theprinter prints the asset and the asset barcode; determining a picked-upevent for the asset, wherein the picked-up event represents assetpick-up from the printer by a delivery service, wherein the picked-upevent is determined based on an invoice received from the deliveryservice, wherein the invoice comprises a first batch identifier and apick-up timestamp, wherein the asset is associated with a second batchidentifier, and wherein determining the picked-up event comprisesassociating the asset with the pick-up timestamp when the first batchidentifier and the second batch identifier match; and notifying thesender of the picked-up event.
 2. The method of claim 1, furthercomprising determining an asset event based on a scan of the assetbarcode at a delivery service facility.
 3. The method of claim 2,further comprising, notifying the sender of the asset event based onnotification preferences specified by the sender.
 4. The method of claim2, wherein the asset event is a processed-for-delivery event.
 5. Themethod of claim 4, wherein a received-by-recipient event can be inferredbased on a predetermined period after the processed-for-delivery event.6. The method of claim 4, further comprising, calculating a deliveryspeed for the asset based on the picked-up event and theprocessed-for-delivery event.
 7. The method of claim 2, wherein theasset event is a return-to-sender event.
 8. The method of claim 1,wherein the sender is notified of the picked-up event using a pushnotification.
 9. The method of claim 1, wherein the asset is part of anorder, wherein assets of the order are routed to multiple differentprinters, wherein the assets of the order are associated with differentpicked-up events.
 10. The method of claim 1, wherein notifying thesender comprises sending the picked-up event to the sender.
 11. Themethod of claim 1, wherein the sender is notified of the picked-up eventafter the sender subscribes to a webhook associated with the picked-upevent.
 12. (canceled)
 13. (canceled)
 14. The method of claim 1, whereinthe picked-up event is determined after a first scan of the barcode at adelivery service facility.
 15. The method of claim 1, wherein theprinter and the delivery service are third-party services.
 16. Themethod of claim 1, wherein the digital version of the asset isprogrammatically generated.
 17. A system for tracking an asset,comprising a processing system configured to: receive a digital versionof the asset associated with a sender; determine an asset identifier forthe asset; generate an asset barcode based on the asset identifier;transmit the digital version to a printer, wherein the printer printsthe asset and the asset barcode; determine a picked-up event for theasset, wherein the picked-up event represents asset pick-up from theprinter by a delivery service, wherein the picked-up event is determinedbased on an invoice received from the delivery service, wherein theinvoice comprises a first batch identifier and a pick-up timestamp, andwherein the asset is associated with a second batch identifier, whereindetermining the picked-up event comprises associating the asset with thepick-up timestamp when the first batch identifier and the second batchidentifier match; and notify the sender of the picked-up event.
 18. Thesystem of claim 17, wherein the system asynchronously communicates anasset event associated with the asset to the sender.
 19. The system ofclaim 18, wherein the sender subscribes to a webhook associated with theasset, and wherein the processor further configured to search a databasefor information associated with the webhook using elastic search. 20.The system of claim 17, wherein the asset barcode is an IMB barcode. 21.The system of claim 17, wherein the processor is further configured todetermine an asset event based on a scan of the asset barcode at adelivery service facility; and notify the sender of the asset eventbased on notification preferences specified by the sender.
 22. Thesystem of claim 17, wherein the processor is further configured todetermine a processed-for-delivery event based on a scan of the assetbarcode at a delivery service facility; and infer areceived-by-recipient event after a predetermined period from theprocessed-for-delivery event.